# frozen-string-literal: true require 'date' require 'time' class Roda module RodaPlugins # The typecast_params plugin allows for the simple type conversion for # submitted parameters. Submitted parameters should be considered # untrusted input, and in standard use with browsers, parameters are # submitted as strings (or a hash/array containing strings). In most # cases it makes sense to explicitly convert the parameter to the # desired type. While this can be done via manual conversion: # # key = request.params['key'].to_i # key = nil unless key > 0 # # the typecast_params plugin adds a friendlier interface: # # key = typecast_params.pos_int('key') # # As +typecast_params+ is a fairly long method name, you may want to # consider aliasing it to something more terse in your application, # such as +tp+. # # One advantage of using typecast_params is that access or conversion # errors are raised as a specific exception class # (+Roda::RodaPlugins::TypecastParams::Error+). This allows you to handle # this specific exception class globally and return an appropriate 4xx # response to the client. You can use the Error#param_name and Error#reason # methods to get more information about the error. # # typecast_params offers support for default values: # # key = typecast_params.pos_int('key', 1) # # The default value is only used if no value has been submitted for the parameter, # or if the conversion of the value results in +nil+. Handling defaults for parameter # conversion manually is more difficult, since the parameter may not be present at all, # or it may be present but an empty string because the user did not enter a value on # the related form. Use of typecast_params for the conversion handles both cases. # # In many cases, parameters should be required, and if they aren't submitted, that # should be considered an error. typecast_params handles this with ! methods: # # key = typecast_params.pos_int!('key') # # These ! methods raise an error instead of returning +nil+, and do not allow defaults. # # To make it easy to handle cases where many parameters need the same conversion # done, you can pass an array of keys to a conversion method, and it will return an array # of converted values: # # key1, key2 = typecast_params.pos_int(['key1', 'key2']) # # This is equivalent to: # # key1 = typecast_params.pos_int('key1') # key2 = typecast_params.pos_int('key2') # # The ! methods also support arrays, ensuring that all parameters have a value: # # key1, key2 = typecast_params.pos_int!(['key1', 'key2']) # # For handling of array parameters, where all entries in the array use the # same conversion, there is an +array+ method which takes the type as the first argument # and the keys to convert as the second argument: # # keys = typecast_params.array(:pos_int, 'keys') # # If you want to ensure that all entries in the array are converted successfully and that # there is a value for the array itself, you can use +array!+: # # keys = typecast_params.array!(:pos_int, 'keys') # # This will raise an exception if any of the values in the array for parameter +keys+ cannot # be converted to integer. # # Both +array+ and +array!+ support default values which are used if no value is present # for the parameter: # # keys = typecast_params.array(:pos_int, 'keys', []) # keys = typecast_params.array!(:pos_int, 'keys', []) # # You can also pass an array of keys to +array+ or +array!+, if you would like to perform # the same conversion on multiple arrays: # # foo_ids, bar_ids = typecast_params.array!(:pos_int, ['foo_ids', 'bar_ids']) # # The previous examples have shown use of the +pos_int+ method, which uses +to_i+ to convert the # value to an integer, but returns nil if the resulting integer is not positive. Unless you need # to handle negative numbers, it is recommended to use +pos_int+ instead of +int+ as +int+ will # convert invalid values to 0 (since that is how String#to_i works). # # There are many built in methods for type conversion: # # any :: Returns the value as is without conversion # str :: Raises if value is not already a string # nonempty_str :: Raises if value is not already a string, and converts # the empty string or string containing only whitespace to +nil+ # bool :: Converts entry to boolean if in one of the recognized formats: # nil :: nil, '' # true :: true, 1, '1', 't', 'true', 'yes', 'y', 'on' # case insensitive # false :: false, 0, '0', 'f', 'false', 'no', 'n', 'off' # case insensitive # If not in one of those formats, raises an error. # int :: Converts value to integer using +to_i+ (note that invalid input strings will be # returned as 0) # pos_int :: Converts value using +to_i+, but non-positive values are converted to +nil+ # Integer :: Converts value to integer using Kernel::Integer, with base 10 for # string inputs, and a check that the output value is equal to the input # value for numeric inputs. # float :: Converts value to float using +to_f+ (note that invalid input strings will be # returned as 0.0) # Float :: Converts value to float using Kernel::Float(value) # Hash :: Raises if value is not already a hash # date :: Converts value to Date using Date.parse(value) # time :: Converts value to Time using Time.parse(value) # datetime :: Converts value to DateTime using DateTime.parse(value) # file :: Raises if value is not already a hash with a :tempfile key whose value # responds to +read+ (this is the format rack uses for uploaded files). # # All of these methods also support ! methods (e.g. +pos_int!+), and all of them can be # used in the +array+ and +array!+ methods to support arrays of values. # # Since parameter hashes can be nested, the [] method can be used to access nested # hashes: # # # params: {'key'=>{'sub_key'=>'1'}} # typecast_params['key'].pos_int!('sub_key') # => 1 # # This works to an arbitrary depth: # # # params: {'key'=>{'sub_key'=>{'sub_sub_key'=>'1'}}} # typecast_params['key']['sub_key'].pos_int!('sub_sub_key') # => 1 # # And also works with arrays at any depth, if those arrays contain hashes: # # # params: {'key'=>[{'sub_key'=>{'sub_sub_key'=>'1'}}]} # typecast_params['key'][0]['sub_key'].pos_int!('sub_sub_key') # => 1 # # # params: {'key'=>[{'sub_key'=>['1']}]} # typecast_params['key'][0].array!(:pos_int, 'sub_key') # => [1] # # To allow easier access to nested data, there is a +dig+ method: # # typecast_params.dig(:pos_int, 'key', 'sub_key') # typecast_params.dig(:pos_int, 'key', 0, 'sub_key', 'sub_sub_key') # # +dig+ will return +nil+ if any access while looking up the nested value returns +nil+. # There is also a +dig!+ method, which will raise an Error if +dig+ would return +nil+: # # typecast_params.dig!(:pos_int, 'key', 'sub_key') # typecast_params.dig!(:pos_int, 'key', 0, 'sub_key', 'sub_sub_key') # # Note that none of these conversion methods modify +request.params+. They purely do the # conversion and return the converted value. However, in some cases it is useful to do all # the conversion up front, and then pass a hash of converted parameters to an internal # method that expects to receive values in specific types. The +convert!+ method does # this, and there is also a +convert_each!+ method # designed for converting multiple values using the same block: # # converted_params = typecast_params.convert! do |tp| # tp.int('page') # tp.pos_int!('artist_id') # tp.array!(:pos_int, 'album_ids') # tp.convert!('sales') do |stp| # stp.pos_int!(['num_sold', 'num_shipped']) # end # tp.convert!('members') do |mtp| # mtp.convert_each! do |stp| # stp.str!(['first_name', 'last_name']) # end # end # end # # # converted_params: # # { # # 'page' => 1, # # 'artist_id' => 2, # # 'album_ids' => [3, 4], # # 'sales' => { # # 'num_sold' => 5, # # 'num_shipped' => 6 # # }, # # 'members' => [ # # {'first_name' => 'Foo', 'last_name' => 'Bar'}, # # {'first_name' => 'Baz', 'last_name' => 'Quux'} # # ] # # } # # +convert!+ and +convert_each!+ only return values you explicitly specify for conversion # inside the passed block. # # You can specify the +:symbolize+ option to +convert!+ or +convert_each!+, which will # symbolize the resulting hash keys: # # converted_params = typecast_params.convert!(symbolize: true) do |tp| # tp.int('page') # tp.pos_int!('artist_id') # tp.array!(:pos_int, 'album_ids') # tp.convert!('sales') do |stp| # stp.pos_int!(['num_sold', 'num_shipped']) # end # tp.convert!('members') do |mtp| # mtp.convert_each! do |stp| # stp.str!(['first_name', 'last_name']) # end # end # end # # # converted_params: # # { # # :page => 1, # # :artist_id => 2, # # :album_ids => [3, 4], # # :sales => { # # :num_sold => 5, # # :num_shipped => 6 # # }, # # :members => [ # # {:first_name => 'Foo', :last_name => 'Bar'}, # # {:first_name => 'Baz', :last_name => 'Quux'} # # ] # # } # # Using the +:symbolize+ option makes it simpler to transition from untrusted external # data (string keys), to trusted data that can be used internally (trusted in the sense that # the expected types are used). # # Note that if there are multiple conversion Error raised inside a +convert!+ or +convert_each!+ # block, they are recorded and a single TypecastParams::Error instance is raised after # processing the block. TypecastParams::Error#params_names can be called on the exception to # get an array of all parameter names with conversion issues, and TypecastParams::Error#all_errors # can be used to get an array of all Error instances. # # Because of how +convert!+ and +convert_each!+ work, you should avoid calling # TypecastParams::Params#[] inside the block you pass to these methods, because if the #[] # call fails, it will skip the reminder of the block. # # Be aware that when you use +convert!+ and +convert_each!+, the conversion methods called # inside the block may return nil if there is a error raised, and nested calls to # +convert!+ and +convert_each!+ may not return values. # # When loading the typecast_params plugin, a subclass of +TypecastParams::Params+ is created # specific to the Roda application. You can add support for custom types by passing a block # when loading the typecast_params plugin. This block is executed in the context of the # subclass, and calling +handle_type+ in the block can be used to add conversion methods. # +handle_type+ accepts a type name and the block used to convert the type: # # plugin :typecast_params do # handle_type(:album) do |value| # if id = convert_pos_int(val) # Album[id] # end # end # end # # By default, the typecast_params conversion procs are passed the parameter value directly # from +request.params+ without modification. In some cases, it may be beneficial to # strip leading and trailing whitespace from parameter string values before processing, which # you can do by passing the strip: :all option when loading the plugin. # # By design, typecast_params only deals with string keys, it is not possible to use # symbol keys as arguments to the conversion methods and have them converted. module TypecastParams # Sentinal value for whether to raise exception during #process CHECK_NIL = Object.new.freeze # Exception class for errors that are caused by misuse of the API by the programmer. # These are different from +Error+ which are raised because the submitted parameters # do not match what is expected. Should probably be treated as a 5xx error. class ProgrammerError < RodaError; end # Exception class for errors that are due to the submitted parameters not matching # what is expected. Should probably be treated as a 4xx error. class Error < RodaError # Set the keys in the given exception. If the exception is not already an # instance of the class, create a new instance to wrap it. def self.create(keys, reason, e) if e.is_a?(self) e.keys ||= keys e.reason ||= reason e else backtrace = e.backtrace e = new("#{e.class}: #{e.message}") e.keys = keys e.reason = reason e.set_backtrace(backtrace) if backtrace e end end # The keys used to access the parameter that caused the error. This is an array # that can be splatted to +dig+ to get the value of the parameter causing the error. attr_accessor :keys # An array of all other errors that were raised with this error. If the error # was not raised inside Params#convert! or Params#convert_each!, this will just be # an array containing the current receiver. # # This allows you to use Params#convert! to process a form input, and if any # conversion errors occur inside the block, it can provide an array of all parameter # names and reasons for parameters with problems. attr_writer :all_errors def all_errors @all_errors ||= [self] end # The reason behind this error. If this error was caused by a conversion method, # this will be the the conversion method symbol. If this error was caused # because a value was missing, then it will be +:missing+. If this error was # caused because a value was not the correct type, then it will be +:invalid_type+. attr_accessor :reason # The likely parameter name where the contents were not expected. This is # designed for cases where the parameter was submitted with the typical # application/x-www-form-urlencoded or multipart/form-data content types, # and assumes the typical rack parsing of these content types into # parameters. # If the parameters were submitted via JSON, #keys should be # used directly. # # Example: # # # keys: ['page'] # param_name => 'page' # # # keys: ['artist', 'name'] # param_name => 'artist[name]' # # # keys: ['album', 'artist', 'name'] # param_name => 'album[artist][name]' def param_name if keys.length > 1 first, *rest = keys v = first.dup rest.each do |param| v << "[" v << param unless param.is_a?(Integer) v << "]" end v else keys.first end end # An array of all parameter names for parameters where the context were not # expected. If Params#convert! was not used, this will be an array containing # #param_name. If Params#convert! was used and multiple exceptions were # captured inside the convert! block, this will contain the parameter names # related to all captured exceptions. def param_names all_errors.map(&:param_name) end end module StringStripper private # Strip any resulting input string. def param_value(key) v = super if v.is_a?(String) v = v.strip end v end end # Class handling conversion of submitted parameters to desired types. class Params # Handle conversions for the given type using the given block. # For a type named +foo+, this will create the following methods: # # * foo(key, default=nil) # * foo!(key) # * convert_foo(value) # private # * _convert_array_foo(value) # private # # This method is used to define all type conversions, even the built # in ones. It can be called in subclasses to setup subclass-specific # types. def self.handle_type(type, &block) convert_meth = :"convert_#{type}" define_method(convert_meth, &block) convert_array_meth = :"_convert_array_#{type}" define_method(convert_array_meth) do |v| raise Error, "expected array but received #{v.inspect}" unless v.is_a?(Array) v.map!{|val| send(convert_meth, val)} end private convert_meth, convert_array_meth define_method(type) do |key, default=nil| process_arg(convert_meth, key, default) if require_hash! end define_method(:"#{type}!") do |key| send(type, key, CHECK_NIL) end end # Create a new instance with the given object and nesting level. # +obj+ should be an array or hash, and +nesting+ should be an # array. Designed for internal use, should not be called by # external code. def self.nest(obj, nesting) v = allocate v.instance_variable_set(:@nesting, nesting) v.send(:initialize, obj) v end handle_type(:any) do |v| v end handle_type(:str) do |v| raise Error, "expected string but received #{v.inspect}" unless v.is_a?(::String) v end handle_type(:nonempty_str) do |v| if (v = convert_str(v)) && !v.strip.empty? v end end handle_type(:bool) do |v| case v when '' nil when false, 0, /\A(?:0|f(?:alse)?|no?|off)\z/i false when true, 1, /\A(?:1|t(?:rue)?|y(?:es)?|on)\z/i true else raise Error, "expected bool but received #{v.inspect}" end end handle_type(:int) do |v| string_or_numeric!(v) && v.to_i end handle_type(:pos_int) do |v| if (v = convert_int(v)) && v > 0 v end end handle_type(:Integer) do |v| if string_or_numeric!(v) case v when String ::Kernel::Integer(v, 10) when Integer v else i = ::Kernel::Integer(v) raise Error, "numeric value passed to Integer contains non-Integer part: #{v.inspect}" unless i == v i end end end handle_type(:float) do |v| string_or_numeric!(v) && v.to_f end handle_type(:Float) do |v| string_or_numeric!(v) && ::Kernel::Float(v) end handle_type(:Hash) do |v| raise Error, "expected hash but received #{v.inspect}" unless v.is_a?(::Hash) v end handle_type(:date) do |v| parse!(::Date, v) end handle_type(:time) do |v| parse!(::Time, v) end handle_type(:datetime) do |v| parse!(::DateTime, v) end handle_type(:file) do |v| raise Error, "expected hash with :tempfile entry" unless v.is_a?(::Hash) && v.has_key?(:tempfile) && v[:tempfile].respond_to?(:read) v end # Set the object used for converting. Conversion methods will convert members of # the passed object. def initialize(obj) case @obj = obj when Hash, Array # nothing else if @nesting handle_error(nil, (@obj.nil? ? :missing : :invalid_type), "value of #{param_name(nil)} parameter not an array or hash: #{obj.inspect}", true) else handle_error(nil, :invalid_type, "parameters given not an array or hash: #{obj.inspect}", true) end end end # If key is a String Return whether the key is present in the object, def present?(key) case key when String !any(key).nil? when Array key.all? do |k| raise ProgrammerError, "non-String element in array argument passed to present?: #{k.inspect}" unless k.is_a?(String) !any(k).nil? end else raise ProgrammerError, "unexpected argument passed to present?: #{key.inspect}" end end # Return a new Params instance for the given +key+. The value of +key+ should be an array # if +key+ is an integer, or hash otherwise. def [](key) @subs ||= {} if sub = @subs[key] return sub end if @obj.is_a?(Array) unless key.is_a?(Integer) handle_error(key, :invalid_type, "invalid use of non-integer key for accessing array: #{key.inspect}", true) end else if key.is_a?(Integer) handle_error(key, :invalid_type, "invalid use of integer key for accessing hash: #{key}", true) end end v = @obj[key] v = yield if v.nil? && block_given? begin sub = self.class.nest(v, Array(@nesting) + [key]) rescue => e handle_error(key, :invalid_type, e, true) end @subs[key] = sub sub.sub_capture(@capture, @symbolize, @skip_missing) sub end # Return the nested value for key. If there is no nested_value for +key+, # calls the block to return the value, or returns nil if there is no block given. def fetch(key) send(:[], key){return(yield if block_given?)} end # Captures conversions inside the given block, and returns a hash of all conversions, # including conversions of subkeys. +keys+ should be an array of subkeys to access, # or nil to convert the current object. If +keys+ is given as a hash, it is used as # the options hash. Options: # # :raise :: If set to false, do not raise errors for missing keys # :skip_missing :: If set to true, does not store values if the key is not # present in the params. # :symbolize :: Convert any string keys in the resulting hash and for any # conversions below def convert!(keys=nil, opts=OPTS) if keys.is_a?(Hash) opts = keys keys = nil end _capture!(:nested_params, opts) do if sub = subkey(Array(keys).dup, opts.fetch(:raise, true)) yield sub end end end # Runs conversions similar to convert! for each key specified by the :keys option. If :keys option is not given # and the object is an array, runs conversions for all entries in the array. If the :keys # option is not given and the object is a Hash with string keys '0', '1', ..., 'N' (with # no skipped keys), runs conversions for all entries in the hash. If :keys option is a Proc # or a Method, calls the proc/method with the current object, which should return an # array of keys to use. # Supports options given to #convert!, and this additional option: # # :keys :: The keys to extract from the object. If a proc or method, # calls the value with the current object, which should return the array of keys # to use. def convert_each!(opts=OPTS, &block) np = !@capture _capture!(nil, opts) do case keys = opts[:keys] when nil keys = (0...@obj.length) valid = case @obj when Array true when Hash keys = keys.map(&:to_s) keys.all?{|k| @obj.has_key?(k)} end unless valid handle_error(nil, :invalid_type, "convert_each! called on object not an array or hash with keys '0'..'N'") next end when Array # nothing to do when Proc, Method keys = keys.call(@obj) else raise ProgrammerError, "unsupported convert_each! :keys option: #{keys.inspect}" end keys.map do |i| begin if v = subkey([i], opts.fetch(:raise, true)) yield v v.nested_params if np end rescue => e handle_error(i, :invalid_type, e) end end end end # Convert values nested under the current obj. Traverses the current object using +nest+, then converts # +key+ on that object using +type+: # # tp.dig(:pos_int, 'foo') # tp.pos_int('foo') # tp.dig(:pos_int, 'foo', 'bar') # tp['foo'].pos_int('bar') # tp.dig(:pos_int, 'foo', 'bar', 'baz') # tp['foo']['bar'].pos_int('baz') # # Returns nil if any of the values are not present or not the expected type. If the nest path results # in an object that is not an array or hash, then raises an Error. # # You can use +dig+ to get access to nested arrays by using :array or :array! as # the first argument and providing the type in the second argument: # # tp.dig(:array, :pos_int, 'foo', 'bar', 'baz') # tp['foo']['bar'].array(:int, 'baz') def dig(type, *nest, key) _dig(false, type, nest, key) end # Similar to +dig+, but raises an Error instead of returning +nil+ if no value is found. def dig!(type, *nest, key) _dig(true, type, nest, key) end # Convert the value of +key+ to an array of values of the given +type+. If +default+ is # given, any +nil+ values in the array are replaced with +default+. If +key+ is an array # then this returns an array of arrays, one for each respective value of +key+. If there is # no value for +key+, nil is returned instead of an array. def array(type, key, default=nil) meth = :"_convert_array_#{type}" raise ProgrammerError, "no typecast_params type registered for #{type.inspect}" unless respond_to?(meth, true) process_arg(meth, key, default) if require_hash! end # Call +array+ with the +type+, +key+, and +default+, but if the return value is nil or any value in # the returned array is +nil+, raise an Error. def array!(type, key, default=nil) v = array(type, key, default) if key.is_a?(Array) key.zip(v).each do |k, arr| check_array!(k, arr) end else check_array!(key, v) end v end protected # Recursively descendent into all known subkeys and get the converted params from each. def nested_params return @nested_params if @nested_params params = @params if @subs @subs.each do |key, v| if key.is_a?(String) && symbolize? key = key.to_sym end params[key] = v.nested_params end end params end # Recursive method to get subkeys. def subkey(keys, do_raise) unless key = keys.shift return self end reason = :invalid_type case key when String unless @obj.is_a?(Hash) raise Error, "parameter #{param_name(nil)} is not a hash" if do_raise return end present = @obj.has_key?(key) when Integer unless @obj.is_a?(Array) raise Error, "parameter #{param_name(nil)} is not an array" if do_raise return end present = key < @obj.length else raise ProgrammerError, "invalid argument used to traverse parameters: #{key.inspect}" end unless present reason = :missing raise Error, "parameter #{param_name(key)} is not present" if do_raise return end self[key].subkey(keys, do_raise) rescue => e handle_error(key, reason, e) end # Inherit given capturing and symbolize setting from parent object. def sub_capture(capture, symbolize, skip_missing) if @capture = capture @symbolize = symbolize @skip_missing = skip_missing @params = @obj.class.new end end private # Whether to symbolize keys when capturing. Note that the method # is renamed to +symbolize?+. attr_reader :symbolize alias symbolize? symbolize undef symbolize # Internals of convert! and convert_each!. def _capture!(ret, opts) previous_symbolize = @symbolize previous_skip_missing = @skip_missing unless cap = @capture @params = @obj.class.new @subs.clear if @subs capturing_started = true cap = @capture = [] end if opts.has_key?(:symbolize) @symbolize = !!opts[:symbolize] end if opts.has_key?(:skip_missing) @skip_missing = !!opts[:skip_missing] end begin v = yield rescue Error => e cap << e unless cap.last == e end if capturing_started unless cap.empty? e = cap[0] e.all_errors = cap raise e end if ret == :nested_params nested_params else v end end ensure @nested_params = nil if capturing_started # Unset capturing if capturing was already started. @capture = nil else # If capturing was not already started, update cached nested params # before resetting symbolize setting. @nested_params = nested_params end @symbolize = previous_symbolize @skip_missing = previous_skip_missing end # Raise an error if the array given does contains nil values. def check_array!(key, arr) if arr if arr.any?{|val| val.nil?} handle_error(key, :invalid_type, "invalid value in array parameter #{param_name(key)}") end else handle_error(key, :missing, "missing parameter for #{param_name(key)}") end end # Internals of dig/dig! def _dig(force, type, nest, key) if type == :array || type == :array! conv_type = nest.shift unless conv_type.is_a?(Symbol) raise ProgrammerError, "incorrect subtype given when using #{type} as argument for dig/dig!: #{conv_type.inspect}" end meth = type type = conv_type args = [meth, type] else meth = type args = [type] end unless respond_to?("_convert_array_#{type}", true) raise ProgrammerError, "no typecast_params type registered for #{meth.inspect}" end if v = subkey(nest, force) v.send(*args, key, (CHECK_NIL if force)) end end # Format a reasonable parameter name value, for use in exception messages. def param_name(key) first, *rest = keys(key) if first v = first.dup rest.each do |param| v << "[#{param}]" end v end end # If +key+ is not +nil+, add it to the given nesting. Otherwise, just return the given nesting. # Designed for use in setting the +keys+ values in raised exceptions. def keys(key) Array(@nesting) + Array(key) end # Handle any conversion errors. By default, reraises Error instances with the keys set, # converts ::ArgumentError instances to Error instances, and reraises other exceptions. def handle_error(key, reason, e, do_raise=false) case e when String handle_error(key, reason, Error.new(e), do_raise) when Error, ArgumentError if @capture && (le = @capture.last) && le == e raise e if do_raise return end e = Error.create(keys(key), reason, e) if @capture @capture << e raise e if do_raise nil else raise e end else raise e end end # Issue an error unless the current object is a hash. Used to ensure we don't try to access # entries if the current object is an array. def require_hash! @obj.is_a?(Hash) || handle_error(nil, :invalid_type, "expected hash object in #{param_name(nil)} but received array object") end # If +key+ is not an array, convert the value at the given +key+ using the +meth+ method and +default+ # value. If +key+ is an array, return an array with the conversion done for each respective member of +key+. def process_arg(meth, key, default) case key when String v = process(meth, key, default) if @capture key = key.to_sym if symbolize? if !@skip_missing || @obj.has_key?(key) @params[key] = v end end v when Array key.map do |k| raise ProgrammerError, "non-String element in array argument passed to typecast_params: #{k.inspect}" unless k.is_a?(String) process_arg(meth, k, default) end else raise ProgrammerError, "Unsupported argument for typecast_params conversion method: #{key.inspect}" end end # Get the value of +key+ for the object, and convert it to the expected type using +meth+. # If the value either before or after conversion is nil, return the +default+ value. def process(meth, key, default) v = param_value(key) unless v.nil? v = send(meth, v) end if v.nil? if default == CHECK_NIL handle_error(key, :missing, "missing parameter for #{param_name(key)}") end default else v end rescue => e handle_error(key, meth.to_s.sub(/\A_?convert_/, '').to_sym, e) end # Get the value for the given key in the object. def param_value(key) @obj[key] end # Helper for conversion methods where '' should be considered nil, # and only String or Numeric values should be converted. def string_or_numeric!(v) case v when '' nil when String, Numeric true else raise Error, "unexpected value received: #{v.inspect}" end end # Helper for conversion methods where '' should be considered nil, # and only String values should be converted by calling +parse+ on # the given +klass+. def parse!(klass, v) case v when '' nil when String klass.parse(v) else raise Error, "unexpected value received: #{v.inspect}" end end end # Set application-specific Params subclass unless one has been set, # and if a block is passed, eval it in the context of the subclass. # Respect the strip: :all to strip all parameter strings # before processing them. def self.configure(app, opts=OPTS, &block) app.const_set(:TypecastParams, Class.new(RodaPlugins::TypecastParams::Params)) unless app.const_defined?(:TypecastParams) app::TypecastParams.class_eval(&block) if block if opts[:strip] == :all app::TypecastParams.send(:include, StringStripper) end end module ClassMethods # Freeze the Params subclass when freezing the class. def freeze self::TypecastParams.freeze super end # Assign the application subclass a subclass of the current Params subclass. def inherited(subclass) super subclass.const_set(:TypecastParams, Class.new(self::TypecastParams)) end end module InstanceMethods # Return and cache the instance of the Params class for the current request. # Type conversion methods will be called on the result of this method. def typecast_params @_typecast_params ||= self.class::TypecastParams.new(@_request.params) end end end register_plugin(:typecast_params, TypecastParams) end end